RU127035U1 - FLOATING PLATFORM - Google Patents

Abstract

1. A floating platform containing connected by at least one fastening element, at least two floating elements, each consisting of at least two side faces with at least one vertical protrusion on each of at least at least two side faces with at least one vertical cavity on each corresponding to a vertical protrusion of the upper face and the bottom, forming together a hollow body with at least one eye to accommodate the fastener, characterized in that each The vertical protrusion and each vertical depression are made on a part of the corresponding lateral face to form a supporting platform on the protrusion, and a supporting platform in the cavity. 2. The floating platform according to claim 1, characterized in that the heights of the parts of the side faces from the upper face to the supporting areas of the vertical protrusions are made equal to the heights of the parts of the side faces from the upper face to the supporting platforms of the vertical depressions. 3. The floating platform according to claim 1 or 2, characterized in that each vertical protrusion and the corresponding vertical cavity are formed by at least three faces, two of which are parallel to each other and perpendicular to the third.

Description

The utility model relates to floating equipment intended for special purposes, namely, to pontoons, floating docks, rafts and other floating structures.

The closest in technical essence to the proposed utility model is a floating platform selected as a prototype, comprising at least two floating elements connected by at least one fastening element, each consisting of at least two side faces with at least one vertical protrusion on each of at least two side faces with at least one vertical cavity on each corresponding to the vertical protrusion of the upper face and the bottom, forming together voids Yellow housing with at least one eyelet for mounting

(RF patent No. 2322549, dated September 30, 2005).

The disadvantages of the prototype are the unreliability of the structure due to the increased load on the eyes with vertical loads and distortions of the floating elements of the platform due to their unreliable fixation due to the forces resulting in the mutual movement of the wave-like or angled protrusions relative to the wave-like or angled depressions during their interaction, and due to insufficient rigidity of the side faces of hollow bodies.

The technical result achieved by the proposed utility model is to reduce the load on the eyes due to the perception of vertical loads by the supporting platforms of the vertical protrusions from the supporting platforms of the vertical depressions, as well as by improving the fixation of the floating elements in the floating platform due to the lack of forces leading to the mutual movement of the rectangular protrusions relative to rectangular depressions during their interaction during fixation, and in increasing the rigidity of the side faces of hollow bodies in floating elements, which leads to an increase in the reliability of the structure as a whole and expansion of operational capabilities by increasing the external load on the floating platform while maintaining material consumption or reducing material consumption (wall thickness of hollow bodies and lugs) while maintaining external load.

The technical result is achieved by the fact that in a floating platform containing connected by at least one fastening element, at least two floating elements, each consisting of at least two side faces with at least one vertical protrusion on each of at least two lateral faces with at least one vertical depression on each, corresponding to a vertical protrusion, from the upper face and the bottom, forming together a hollow body with at least one eye for size scheniya fastening member, each vertical projection and each depression formed on the vertical part of the corresponding lateral face to form a ledge on the support pad, and resting in the depression area. In addition, the heights h ₁ parts of the side faces from the upper face to the supporting areas of the vertical protrusions can be made equal to the heights h ₂ parts of the side faces from the upper face to the supporting areas of the vertical depressions, and each vertical protrusion and the corresponding vertical depression can be formed at least at least three faces, two of which are parallel to each other and perpendicular to the third.

Figure 1 shows a floating platform, consisting of four floating elements, a General view in isometric view,

figure 2 is the same floating platform, bottom view,

figure 3 - floating platform, consisting of two floating elements, top view,

figure 4 - connection of three floating elements of the fastening element, in isometry.

The floating platform comprises at least two floating elements 2 connected by at least one fastening element 1, each consisting of at least two side faces 3 and 4 with at least one vertical protrusion 5 on each, from at least two side faces 6 and 7 with at least one vertical depression 8 on each corresponding to the vertical protrusion 5, from the upper face 9 and the bottom 10, forming together a hollow body 11 with at least one eye 12 (figures 1,2 and 4 show floating elements 2 with four three eyes 12 each, figure 3 shows the floating elements 2 with six eyes 12 each) to accommodate the fastening element 1. Each vertical protrusion 5 and each vertical cavity 8 are made on a part of the corresponding lateral edge 3, 4 and 6, 7 with the formation on the protrusion 5 of the supporting platform 13, and in the cavity 8 of the supporting platform 14. The height h _{1 of the} parts of the side faces 3 and 4 from the upper face 9 to the supporting areas 13 of the vertical protrusions 5 can be made equal to the heights h _{2 of the} parts of the side faces 6 and 7 from the upper face 9 to the supporting platforms 14 of the vertical depressions 8, and each vertical protrusion 5 and the corresponding vertical depression 8 can be formed, along the edge it least three facets (shown in the Figures further technological rounding 15), two (16 and 17) of which are parallel to each other and perpendicular to the third (18). When performing each floating element 2 by extrusion blow molding in a hollow body 11, a technological hole closed by a stopper 19 is provided.

The floating platform works as follows.

The floating platform is assembled into a single structure of floating elements 2 by connecting the eyes of 12 bodies 11 with fasteners 1. In this case, after connecting the floating elements 2, the supporting platforms 14 of the vertical depressions 8 are supported (with the possibility of perceiving vertical loads) on the supporting platforms 13 of the vertical ledges 5 of the adjacent floating elements 2, reducing the load on the eyes 12.

This technical solution due to the implementation of each vertical protrusion 5 and each vertical cavity 8 on the part of the corresponding lateral edge 3, 4 and 6, 7 with the formation on the protrusion 5 of the supporting platform 13, and in the cavity 8 of the supporting platform 14 allows you to perceive the vertical load supporting platforms 13 vertical projections 5 resting on the platforms 14 of the vertical troughs 8, thereby relieving lugs 12. In this implementation heights h ₁ parts of the side faces 3 and 4 against the upper face 9 to the bearing surfaces 13 of the projections 5 in equal vertical height where h ₂ parts of the side faces 6 and 7 from the top face 9 and resting platforms 14 of the vertical troughs 8 provides uniform perception vertical loads upper faces 9, the floating element 2, and the formation of each of the vertical flange 5 and the corresponding vertical hollows 8 at least three sides , two (16 and 17) of which are parallel to each other and perpendicular to the third (18), resembling channels, further reduces the load on the eyes 12 by improving the fixation of the floating elements 2 in the composition of the floating platform due to the absence of forces leading to the mutual movement of the rectangular protrusions 5 relative to the rectangular depressions 8 during their interaction during fixation, and increases the axial moments of inertia of the cross section of the side faces, which in turn increases the rigidity of the side faces 3, 4, 6 and 7 of the hollow bodies 11 of the floating elements 2 and at the same time maintains the manufacturability of the manufacture of each floating element 2, which leads to an increase in the reliability of the structure as a whole and the expansion of operational capabilities by increasing outside it loads on the floating platform while maintaining material consumption or reduced consumption of materials (wall thickness of hollow housings 11 and the lugs 12) while maintaining the external load.

Claims (3)

1. A floating platform containing connected by at least one fastening element, at least two floating elements, each consisting of at least two side faces with at least one vertical protrusion on each of at least at least two side faces with at least one vertical cavity on each corresponding to a vertical protrusion of the upper face and the bottom, forming together a hollow body with at least one eye to accommodate the fastener, characterized in that each The vertical protrusion and each vertical cavity are made on a part of the corresponding lateral face to form a supporting platform on the protrusion, and a supporting platform in the cavity. 2. The floating platform according to claim 1, characterized in that the heights h _{1 of the} parts of the side faces from the upper face to the supporting areas of the vertical protrusions are made equal to the heights h _{2 of the} parts of the side faces from the upper face to the supporting platforms of the vertical cavities. 3. The floating platform according to claim 1 or 2, characterized in that each vertical protrusion and the corresponding vertical cavity are formed by at least three faces, two of which are parallel to each other and perpendicular to the third.

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